Searching for high-z radio galaxies with the MGCLS

TL;DR

This study uses MeerKAT MGCLS data to identify high-redshift radio galaxy candidates based on steep radio spectra and lack of optical/infrared counterparts, significantly extending the detection sensitivity for faint sources.

Contribution

It introduces a new method leveraging MGCLS data to find HzRG candidates with lower flux density thresholds than previous studies.

Findings

Identified 274 HzRG candidates, including 179 ultra-steep spectrum sources.

Achieved spectral index measurements down to 0.3 mJy flux density, deeper than prior work.

Demonstrated MGCLS's potential as a powerful resource for high-z radio galaxy searches.

Abstract

We present results from a search for high-redshift radio galaxy (H$z$RG) candidates using 1.28 GHz data in the Abell 2751 field drawn from the MeerKAT Galaxy Cluster Legacy Survey (MGCLS). We use the H$z$RG criteria that a radio source is undetected in all-sky optical and infrared catalogues, and has a very steep radio spectrum. We cross-match the radio catalogue against multi-wavelength galaxy catalogues from DECaLS and AllWISE. For those radio sources with no multi-wavelength counterpart, we further implement a radio spectral index criterium of $\alpha < -1$, using in-band spectral index measurements from the wide-band MeerKAT data. Using a 5$\sigma$ signal-to-noise cut on the radio flux densities, we find a total of 274 HzRG candidates: 179 ultra-steep spectrum sources, and 95 potential candidates which cannot be ruled out as they have no spectral information available. The spectral index assignments in this work are complete above a flux density of 0.3 mJy, at least an order of magnitude lower than existing studies in this frequency range or when extrapolating from lower frequency limits. Our faintest HzRG candidates with and without an in-band spectral index measurement have a 1.28\,GHz flux density of 57 $\pm$ 8 $\mu$Jy and 68 $\pm$ 13 $\mu$Jy, respectively. Although our study is not complete down to these flux densities, our results indicate that the sensitivity and bandwidth of the MGCLS data makes them a powerful radio resource to search for H$z$RG candidates in the Southern sky, with 20 of the MGCLS pointings having similar image quality as the Abell~2751 field and full coverage in both DECaLS and AllWISE. Data at additional radio frequencies will be needed for the faintest source populations, which could be provided in the near future by the MeerKAT UHF band (580 -- 1015 MHz) at a similar resolution ($\sim$ 8-10 arcsec).